CN205403957U - Visual surface feature fiber optic spectrometer tester - Google Patents

Abstract

The utility model discloses a visual surface feature fiber optic spectrometer tester contains: surface feature probe, optic fibre spectrometer, ultraviolet spectrum appearance, first circuit board, near -infrared spectroscopy, second Circuit Board, treater, display, wherein, the treater connect the visual ware of CCD, the visual ware of this CCD with the surface feature probe is integrated integrative. Through this scheme, can more accurately write down the visible light photographic intelligence that every surface feature spectral data gathered the measured object in place, provide fine foundation for subsequent data screening assay.

Description

Object light fibre spectral investigator visually

Technical field

This utility model relates to spectrogrph technical field, especially one object light optical fiber spectrograph visually.

Background technology

China is vast in territory, vast territory and abundant resources, rich in mineral resources, the area coverage of lake, ocean, crop acreage and forest cover is also very vast, although we can obtain mineral reserve by satellite remote sensing, the information of lake, ocean, crops and forest cover, but these information are often thicker, we need these mineral, lake, ocean, crops and forest cover are monitored on the spot, simultaneously need to record the geographical location information in these data acquisition places, in order to satellite remote sensing date comparison.

Current field spectroradiometer mainly has the FieldSpec series of ASD company of the U.S., PSR and the SR series etc. of SVC company of U.S. HR series and SEI company of the U.S..Wherein the field spectroradiometer of ASD company does not visualize camera function, the field spectroradiometer of SVC and SEI company is controlled by hand-held PDA, the visualization photo of measured object can only be provided by PDA, this just requires that user away from device Host, can not actually limit the use of radio function when test.

Therefore, the problems referred to above are urgently to be resolved hurrily.

Utility model content

In order to overcome the deficiencies in the prior art, the utility model proposes one object light fibre spectral investigator visually, its objective is to realize spectral investigator in gatherer process to being taken pictures in real time by geodetic and uploading.

In order to solve above-mentioned technical problem, the basic technical scheme that the utility model proposes is: one is object light fibre spectral investigator visually, comprises:

Atural object for gathering the mixed light beam of atural object is popped one's head in；

For receiving the mixed light beam of atural object probe and being separated in visible light beam and the fiber splitter of near-infrared light beam；

For receiving visible light beam and sensing the visible spectrophotometer of visible ray light distribution；

Receive the optical signal that visible spectrophotometer transmits the first circuit board being converted into first signal of telecommunication；

For receiving near-infrared light beam and sensing the near infrared spectrometer of its light distribution；

Receive the optical signal of near infrared spectrometer and be converted into the second circuit board of second signal of telecommunication；

Receive first signal of telecommunication and second signal of telecommunication and form the processor of spectral waveform；

For receiving the waveform that processor is formed the display being shown in screen；

Wherein, described processor connects CCD viewer, and this CCD viewer is integrated with described atural object probe；

Wherein, described processor is also connected with GPS locating module and wireless communication module respectively in order to being carried out Geographic mapping by geodetic and transmitting data.

Further, this fiber spectrum tester also includes supply module, this supply module electrically connects described processor, GPS locating module, wireless communication module, second circuit board to realize power supply, and wherein, described second circuit board electrical connection first circuit board is to transmit electric power to first circuit board.

Further, described processor connects a memorizer.

Further, described CCD viewer and atural object probe are contained in housing, and this housing has two host cavities being arranged in parallel, and this CCD viewer and atural object probe lay respectively in two host cavities.

The beneficial effects of the utility model are:

In the technical solution of the utility model, arranging with CCD viewer, this CCD viewer is integrated with atural object probe, passes through the program, it is achieved that obtain the picture on collected ground in gathering object spectrum process without the function being subject to scope restriction simultaneously.

Accompanying drawing explanation

Fig. 1 is the structural representation of this utility model object light fibre spectral investigator visually；

Fig. 2 is the structural representation of atural object probe and CCD viewer.

Detailed description of the invention

Below with reference to accompanying drawing 1 and accompanying drawing 2, this utility model is described further, but protection domain of the present utility model should do not limited with this.

This utility model one is object light fibre spectral investigator visually, comprises:

Atural object for gathering the mixed light beam of atural object pops one's head in 10；

For receiving the mixed light beam of atural object probe 10 and separating in visible light beam and the fiber splitter 20 of near-infrared light beam；

For receiving visible light beam and sensing the visible spectrophotometer 30 of visible ray light distribution；

Receive the optical signal that visible spectrophotometer 30 transmits the first circuit board 40 being converted into first signal of telecommunication；

For receiving near-infrared light beam and sensing the near infrared spectrometer 50 of its light distribution；

Receive the optical signal of near infrared spectrometer 50 and be converted into the second circuit board 60 of second signal of telecommunication；

Receive first signal of telecommunication and second signal of telecommunication and form the processor 70 of spectral waveform；

For receiving the waveform that processor 70 is formed the display 80 being shown in screen；

Wherein, described processor 70 connects CCD viewer 90, and this CCD viewer 90 and described atural object are popped one's head in 10 integrated；

Wherein, described processor 70 is also connected with GPS locating module 100 and wireless communication module 110 respectively in order to being carried out Geographic mapping by geodetic and transmitting data.

In scheme, it is achieved that visualization measurement, radio communication function.

Specifically, CCD viewer 90 and atural object are popped one's head in 10 integrated, and circumference environment can be observed by CCD viewer 90 and can take pictures by the places of 10 detections of popping one's head at atural object.Detailed, CCD viewer 90 video data that obtains of shooting or the photo obtained of taking pictures will by described wireless communication module 110 to remote terminal transmission after processor 70, further, the spectral information of atural object probe 10 collection also can be transferred to remote terminal by wireless communication module 110 in the lump；Additionally, the geographical location information at the measured object place of acquisition is also transferred to remote terminal by GPS locating module 100 in the lump, so, remote terminal will obtain the spectral information of measured object, geographical location information and photo, and the screening for the later stage provides good foundation.

In this programme, this fiber spectrum tester also includes supply module 120, this supply module 120 electrically connects described processor 70, GPS locating module 100, wireless communication module 110, second circuit board 60 to realize power supply, wherein, described second circuit board 60 electrically connects first circuit board to transmit electric power to first circuit board 40.This supply module 120 adopts lithium battery or super capacitor to be powered, and this lithium battery or super capacitor all can charge.

In order to the spectral information of collection, pictorial information and geographical location information are stored so that later stage inquiry, described processor 70 connects a memorizer 130.

Concrete, in order to realize popping one's head in CCD viewer 90 and atural object 10 integrated, described CCD viewer 90 and atural object being popped one's head in 10 is contained in housing 01, and this housing 01 has certain intensity to meet instructions for use.In order to well fix CCD viewer 90 and the position of atural object probe 10, this housing 01 has two host cavities being arranged in parallel 011, and this CCD viewer 90 and atural object probe 10 are just arranged in these two host cavities 011.In order to well change CCD viewer 90 or atural object probe 10 according to demand, the rwo is detachably mounted in host cavity 011.

The announcement of book and instruction according to the above description, above-mentioned embodiment can also be modified and revise by this utility model those skilled in the art.Therefore, this utility model is not limited to detailed description of the invention disclosed and described above, should also be as falling in scope of the claims of the present utility model to modifications and changes more of the present utility model.Although additionally, employ some specific terms in this specification, but these terms are intended merely to convenient explanation, this utility model are not constituted any restriction.

Claims (4)

1. an object light fibre spectral investigator visually, it is characterised in that comprise:

Atural object for gathering the mixed light beam of atural object is popped one's head in；

For receiving the mixed light beam of atural object probe and being separated in visible light beam and the fiber splitter of near-infrared light beam；

For receiving visible light beam and sensing the visible spectrophotometer of visible ray light distribution；

Receive the optical signal that visible spectrophotometer transmits the first circuit board being converted into first signal of telecommunication；

For receiving near-infrared light beam and sensing the near infrared spectrometer of its light distribution；

Receive the optical signal of near infrared spectrometer and be converted into the second circuit board of second signal of telecommunication；

Receive first signal of telecommunication and second signal of telecommunication and form the processor of spectral waveform；

For receiving the waveform that processor is formed the display being shown in screen；

Wherein, described processor connects CCD viewer, and this CCD viewer is integrated with described atural object probe；

Wherein, described processor is also connected with GPS locating module and wireless communication module respectively in order to being carried out Geographic mapping by geodetic and transmitting data.

2. object light fibre spectral investigator visually as claimed in claim 1, it is characterized in that: this fiber spectrum tester also includes supply module, this supply module electrically connects described processor, GPS locating module, wireless communication module, second circuit board to realize power supply, wherein, described second circuit board electrical connection first circuit board is to transmit electric power to first circuit board.

3. object light fibre spectral investigator visually as claimed in claim 1, it is characterised in that: described processor connects a memorizer.

4. object light fibre spectral investigator visually as claimed in claim 1, it is characterized in that: described CCD viewer and atural object probe are contained in housing, this housing has two host cavities being arranged in parallel, and this CCD viewer and atural object probe lay respectively in two host cavities.